Frontiers in Neuroscience (Jan 2019)

Study the Longitudinal in vivo and Cross-Sectional ex vivo Brain Volume Difference for Disease Progression and Treatment Effect on Mouse Model of Tauopathy Using Automated MRI Structural Parcellation

  • Da Ma,
  • Da Ma,
  • Da Ma,
  • Holly E. Holmes,
  • Manuel J. Cardoso,
  • Manuel J. Cardoso,
  • Marc Modat,
  • Marc Modat,
  • Ian F. Harrison,
  • Nick M. Powell,
  • Nick M. Powell,
  • James M. O’Callaghan,
  • Ozama Ismail,
  • Ross A. Johnson,
  • Michael J. O’Neill,
  • Emily C. Collins,
  • Mirza F. Beg,
  • Karteek Popuri,
  • Mark F. Lythgoe,
  • Sebastien Ourselin,
  • Sebastien Ourselin

DOI
https://doi.org/10.3389/fnins.2019.00011
Journal volume & issue
Vol. 13

Abstract

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Brain volume measurements extracted from structural MRI data sets are a widely accepted neuroimaging biomarker to study mouse models of neurodegeneration. Whether to acquire and analyze data in vivo or ex vivo is a crucial decision during the phase of experimental designs, as well as data analysis. In this work, we extracted the brain structures for both longitudinal in vivo and single-time-point ex vivo MRI acquired from the same animals using accurate automatic multi-atlas structural parcellation, and compared the corresponding statistical and classification analysis. We found that most gray matter structures volumes decrease from in vivo to ex vivo, while most white matter structures volume increase. The level of structural volume change also varies between different genetic strains and treatment. In addition, we showed superior statistical and classification power of ex vivo data compared to the in vivo data, even after resampled to the same level of resolution. We further demonstrated that the classification power of the in vivo data can be improved by incorporating longitudinal information, which is not possible for ex vivo data. In conclusion, this paper demonstrates the tissue-specific changes, as well as the difference in statistical and classification power, between the volumetric analysis based on the in vivo and ex vivo structural MRI data. Our results emphasize the importance of longitudinal analysis for in vivo data analysis.

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